That misses the point of this vuln entirely which requires NO JavaScript whatsoever on the user's part. The site is written to use JavaScript and set up a JSONP service. This trick fools the JSONP service into returning a "callback name" that just so happens to be valid.swf data. The attacker then uses the URL that triggers that response in a context that expects flash (e.g. an or tag). As far as Flash is concerned the.swf came from that site so it's allowed to make any further requests to that site it wants.
[I, too, am sad the UI for disabling JS is gone, but honestly for myself I've always used the Web Developer Toolbar when I wanted to disable JS because it's faster to get to that option.]

As the Firefox Security Manager I completely and vehemently disagree. I employ a team that spends 100% of their time "going on bug-hunts" looking for security bugs in Firefox, and I know my counter-part at Google is doing the same for Chrome. Our Bug Bounty programs (VRP? ugh, so very corporate) are an incentive for people who stumble on neat stuff to pass it on, not a substitute for doing the work ourselves.

Mozilla isn't too keen on that, either: we're quite serious about wanting this to be a distributed system. Announcing Yahoo as an Identity Provider is an important step toward that. Another important step will be native navigator.id support in the browser so sites don't need to load the polyfill from persona.org.

No browser would accept a *.* certificate. According to the spec '*' can only appear in the leftmost label and can match only within that label. Long ago Netscape originally supported an expressive regexp syntax; modern browsers follow the RFC.

Mozilla is working on a short-term patch to TLS that will prevent the attack in the browser (see the bug), and in the longer term will implement TLS 1.2 (but if you don't prevent TLS downgrades you haven't fixed anything, and if you do you break all the version-intolerant servers out there).

No browser fix can prevent this attack from using a vulnerable plugin such as Java since Java is making these network requests on its own. Either the plugin vendor issues a fix, or you fix it by disabling the plugin.

If there were "better" ways that didn't require a plugin they would have demoed that. Maybe there are such ways, but not through simple <script> or <img> tags. In some ways I wish that is what they used: we could have fixed that ourselves rather than being at the mercy of plugin vendors.

We're also investigating a different approach of double-keying cookies with the primary and 3rd-party domains, which has the advantage of preventing advertisers from correlating your visits across sites within a session. This breaks even more legitimate things (as Opera also found when they experimented with this) so we're still brainstorming.

Actually, the reason Google knows that bit more about sites people visit, is that Firefox, Chrome and Safari all send each and every domain you visit to Google's Safebrowsing servers before they connect to it.

That is not how SafeBrowsing works. Firefox downloads a large database of hash prefixes. If the hashes of the domain and url are not in the list you go to the site and nothing is sent to Google. If the first bit of the hash matches an entry in the list Firefox asks Google for the list of complete hashes that start with that prefix. If the site's hash matches then you're blocked, if it doesn't you're not, but nothing more is sent.

To further obfuscate things, when Firefox finds a prefix match it doesn't just ask for the hashes matching that prefix, it also asks for the hashes matching a couple other random prefixes from the list.

Google may still know all the sites you visit through cookies on google-analytics or AdSense, but they're not getting that information from SafeBrowsing.

Firefox was an early adopter of the <a ping> HTML 5 feature to solve exactly this redirect-for-tracking issue, added in early 2006: https://bugzilla.mozilla.org/show_bug.cgi?id=319368 There was huge controversy that the feature helped sites track users (never mind that you're being tracked as it is, and that the feature let you turn it off) and it was disabled before it ever shipped. We thus continue trudging through redirect hell when the browser could have been doing that for us in parallel while giving us the content we wanted.

The feature would have sold better if it was framed as <a shortcut> or <a dest>. That is, keep the historical href behavior jumping through redirects in old browsers, while new browsers could just load the final content directly from the shortcut (or dest) attribute and treat href as the ping. I'm sure that suggestion gives HTML purist fits on semantic grounds. At least it's backward compatible unlike ping which requires a site to choose between serving different content to old and new browsers, forgoing link tracking on old browsers (the majority? fat chance), or not supporting the feature at all (we have a winner!).

URL-shorteners are a different use-case altogether and not served by <a ping>

We don't advertise it because anyone competent to check SHA1 hashes should be able to check PGP signatures, and the mirror network scales unlike hosting everything ourselves. Obviously the SSL server is not mirrored because giving out the cert would make it pointless.